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C. Judson King is Provost and Senior Vice President – Academic Affairs, Emeritus of the University of California, having served from 1995 until 2004. He has been Provost, Professional Schools and Colleges (1987-1994), Dean of the College of Chemistry (1981-1987) and Director the Center for Studies in Higher Education (2004-2014) on the Berkeley campus. He is also Professor Emeritus of Chemical and Biomolecular Engineering, having researched and published extensively in that field during his nearly 56-year Berkeley career and been chair of that department (1972-81). He wrote a widely used text book, Separation Processes (1971, 1980) and carried out research on spray drying, freeze-drying, solvent extraction, adsorption, and other methods of separation. He is most recently author of a 2018 book, The University of California: Creating, Nurturing, and Maintaining Academic Quality in a Public University Setting, available open-access through UC’s eScholarship and in print form through online outlets. See ORCID profile for positions held, honors and awards,and publications.
The complex dimensions of many issues faced by engineers require that they understand social and humanistic matters along with the technical, and communicate effectively and synergistically with persons having all sorts of backgrounds. This is especially true for matters of sustainability and energy supply. Engineering should therefore be built upon the foundation of a broad and liberal undergraduate education, with the professional degree being moved to the graduate level, as is the case for the other major professions. Another benefit of moving the degree level can be to delay the point of commitment to an engineering major from before college to the latter part of the undergraduate program, a move which can bring in new enrollees and increase diversity. The move of the professional engineering degree to the graduate level has already happened for a number of European countries as an outgrowth of the Bologna Process. There are incremental changes that can be made so that this transition can be undertaken by evolution as opposed to revolution.
C. King. A Liberal Undergraduate Education for Engineers. Sustainability 2020, 12, 6506 .
AMA StyleC. King. A Liberal Undergraduate Education for Engineers. Sustainability. 2020; 12 (16):6506.
Chicago/Turabian StyleC. King. 2020. "A Liberal Undergraduate Education for Engineers." Sustainability 12, no. 16: 6506.
C. Judson King; Karl S. Pister. Reaction: how best to broaden engineering education? Engineering Studies 2015, 7, 1 -3.
AMA StyleC. Judson King, Karl S. Pister. Reaction: how best to broaden engineering education? Engineering Studies. 2015; 7 (2-3):1-3.
Chicago/Turabian StyleC. Judson King; Karl S. Pister. 2015. "Reaction: how best to broaden engineering education?" Engineering Studies 7, no. 2-3: 1-3.
Janet A. Tamada; C. Judson King. Extraction of carboxylic acids with amine extractants. 3. Effect of temperature, water coextraction, and process considerations. Industrial & Engineering Chemistry Research 1990, 29, 1333 -1338.
AMA StyleJanet A. Tamada, C. Judson King. Extraction of carboxylic acids with amine extractants. 3. Effect of temperature, water coextraction, and process considerations. Industrial & Engineering Chemistry Research. 1990; 29 (7):1333-1338.
Chicago/Turabian StyleJanet A. Tamada; C. Judson King. 1990. "Extraction of carboxylic acids with amine extractants. 3. Effect of temperature, water coextraction, and process considerations." Industrial & Engineering Chemistry Research 29, no. 7: 1333-1338.
Janet A. Tamada; A. Steven Kertes; C. Judson King. Extraction of carboxylic acids with amine extractants. 1. Equilibria and law of mass action modeling. Industrial & Engineering Chemistry Research 1990, 29, 1319 -1326.
AMA StyleJanet A. Tamada, A. Steven Kertes, C. Judson King. Extraction of carboxylic acids with amine extractants. 1. Equilibria and law of mass action modeling. Industrial & Engineering Chemistry Research. 1990; 29 (7):1319-1326.
Chicago/Turabian StyleJanet A. Tamada; A. Steven Kertes; C. Judson King. 1990. "Extraction of carboxylic acids with amine extractants. 1. Equilibria and law of mass action modeling." Industrial & Engineering Chemistry Research 29, no. 7: 1319-1326.
Janet A. Tamada; C. Judson King. Extraction of carboxylic acids with amine extractants. 2. Chemical interactions and interpretation of data. Industrial & Engineering Chemistry Research 1990, 29, 1327 -1333.
AMA StyleJanet A. Tamada, C. Judson King. Extraction of carboxylic acids with amine extractants. 2. Chemical interactions and interpretation of data. Industrial & Engineering Chemistry Research. 1990; 29 (7):1327-1333.
Chicago/Turabian StyleJanet A. Tamada; C. Judson King. 1990. "Extraction of carboxylic acids with amine extractants. 2. Chemical interactions and interpretation of data." Industrial & Engineering Chemistry Research 29, no. 7: 1327-1333.
Terry M. Grant; C. Judson King. Mechanism of irreversible adsorption of phenolic compounds by activated carbons. Industrial & Engineering Chemistry Research 1990, 29, 264 -271.
AMA StyleTerry M. Grant, C. Judson King. Mechanism of irreversible adsorption of phenolic compounds by activated carbons. Industrial & Engineering Chemistry Research. 1990; 29 (2):264-271.
Chicago/Turabian StyleTerry M. Grant; C. Judson King. 1990. "Mechanism of irreversible adsorption of phenolic compounds by activated carbons." Industrial & Engineering Chemistry Research 29, no. 2: 264-271.
Galen E. Downton; Jose L. Flores-Luna; C. Judson King. Mechanism of stickiness in hygroscopic, amorphous powders. Industrial & Engineering Chemistry Fundamentals 1982, 21, 447 -451.
AMA StyleGalen E. Downton, Jose L. Flores-Luna, C. Judson King. Mechanism of stickiness in hygroscopic, amorphous powders. Industrial & Engineering Chemistry Fundamentals. 1982; 21 (4):447-451.
Chicago/Turabian StyleGalen E. Downton; Jose L. Flores-Luna; C. Judson King. 1982. "Mechanism of stickiness in hygroscopic, amorphous powders." Industrial & Engineering Chemistry Fundamentals 21, no. 4: 447-451.
James M. Wardell; C. Judson King. Solvent equilibriums for extraction of carboxylic acids from water. Journal of Chemical & Engineering Data 1978, 23, 144 -148.
AMA StyleJames M. Wardell, C. Judson King. Solvent equilibriums for extraction of carboxylic acids from water. Journal of Chemical & Engineering Data. 1978; 23 (2):144-148.
Chicago/Turabian StyleJames M. Wardell; C. Judson King. 1978. "Solvent equilibriums for extraction of carboxylic acids from water." Journal of Chemical & Engineering Data 23, no. 2: 144-148.
Roger W. Thompson; C. Judson King. Systematic synthesis of separation schemes. AIChE Journal 1972, 18, 941 -948.
AMA StyleRoger W. Thompson, C. Judson King. Systematic synthesis of separation schemes. AIChE Journal. 1972; 18 (5):941-948.
Chicago/Turabian StyleRoger W. Thompson; C. Judson King. 1972. "Systematic synthesis of separation schemes." AIChE Journal 18, no. 5: 941-948.
C. Judson King; Arvo Lannus. Separation Processes. Journal of The Electrochemical Society 1972, 119, 171C .
AMA StyleC. Judson King, Arvo Lannus. Separation Processes. Journal of The Electrochemical Society. 1972; 119 (6):171C.
Chicago/Turabian StyleC. Judson King; Arvo Lannus. 1972. "Separation Processes." Journal of The Electrochemical Society 119, no. 6: 171C.